Diffusion and Spectroscopy of H$_2$ in Myoglobin

arXiv - QuanBio - Biomolecules Pub Date : 2024-09-13 DOI:arxiv-2409.08737

Jiri Käser, Kai Töpfer, Markus Meuwly

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Abstract

The diffusional dynamics and vibrational spectroscopy of molecular hydrogen (H$_2$) in myoglobin (Mb) is characterized. Hydrogen has been implicated in a number of physiologically relevant processes, including cellular aging or inflammation. Here, the internal diffusion through the protein matrix was characterized and the vibrational spectroscopy was investigated using conventional empirical energy functions and improved models able to describe higher-order electrostatic moments of the ligand. H$_2$ can occupy the same internal defects as already found for Xe or CO (Xe1 to Xe4 and B-state). Furthermore, 4 additional sites were found, some of which had been discovered in earlier simulation studies. The vibrational spectra using the most refined energy function indicate that depending on the docking site the spectroscopy of H$_2$ differs. The maxima of the absorption spectra cover $\sim 20$ cm$^{-1}$ which are indicative of a pronounced effect of the surrounding protein matrix on the vibrational spectroscopy of the ligand. Electronic structure calculations show that H$_2$ forms a stable complex with the heme-iron (stabilized by $\sim -12$ kcal/mol) but splitting of H$_2$ is unlikely due to a high activation energy ($\sim 50$ kcal/mol).

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肌红蛋白中 H$_2$ 的扩散与光谱学

本研究描述了分子氢（H$_2$）在肌红蛋白（Mb）中的扩散动力学和振动光谱学。氢与许多生理相关过程有关，包括细胞衰老或炎症。本文利用传统的经验能量函数和能够描述配体高阶静电矩的改进模型，对通过蛋白质基质的内部扩散进行了表征，并对振动光谱进行了研究。H$_2$ 可以占据与已发现的 Xe 或 CO 相同的内部缺陷（Xe1 至 Xe4 和 B 态）。使用最精确能量函数的振动光谱表明，根据对接位点的不同，H$_2$ 的光谱也有所不同。吸收光谱的最大值覆盖了 $\sim 20$ cm$^{-1}$，这表明周围的蛋白质基质对配体的振动光谱有明显的影响。电子结构计算表明，H$_2$ 与血红素铁形成了稳定的复合物（稳定度为 $\sim -12$ kcal/mol），但由于活化能较高（$\sim 50$ kcal/mol），H$_2$不太可能发生分裂。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - QuanBio - Biomolecules

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